DE3045603A1 - METHOD AND DEVICE FOR PRODUCING A GLASS FILM - Google Patents

Description

Method and device for producing a glass film

The drawing of glass in web form from a molten bath is one of the oldest industrial techniques. Regarding this It has long been known that the edges of the drawn web are well below the temperature of the central portions of the To keep track, a variety of methods and devices have heretofore been proposed for such to allow differential cooling of the drawn web. All of these known methods and devices however, have been found to be ineffective when used in drawing a glass film that is not over the thickness 0.0762 mm (0.003 in} and typically in the range of 0.0127 ram (0.005 in.) For example, the beats Prior art suggests cooling the edges of the drawn glass sheet by blowing cold air onto these edges. However, such blowing of cooled air onto a glass film of the aforesaid thickness would become complete Destruction of the film. In other patents the arrangement of electrodes is within the molten Vitreous body has been proposed in a position immediately adjacent to the points at which the edges of the Glass web can be drawn from the molten glass. However, the drawn film is as narrow as about 12 inches to 60.96 cm (12 to 24 inches} and the amount of glass drawn from a molten bath in making thin films like this

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small that no effective differential heating effect occurs through the use of such electrodes.

It is therefore an object of the invention to provide an improved method and apparatus for drawing thin glass. Provide films that are not 0.003 inch (0.0762 mm) thick exceeds. .

A specific object of the invention is to achieve the drawing of a thin glass film through an opening which is delimited by two spaced-apart walls made of a glass-resistant, electrically conductive metal, and to effect differential heating of such a metal via the application of electrical currents, thereby keeping the end portions of the walls defining the opening at a lower temperature than the central portions. Since the volume of the molten glass passing through the opening is so small, this temperature difference in the opening walls is immediately converted into a temperature difference in the drawn glass film, so that the desired difference of about 22.2 ° C (40 ^D F) between the temperatures the central portions of the drawn glass film and the temperature of the edge portions can be maintained.

Other objects and advantages of the invention will appear from the following detailed description of a preferred one AusfDhrungsbeispiels the invention in connection with the

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Drawing. Show it:

FIG. 1 is a schematic perspective view of a glass film drawing formed according to the invention. contraption! and

Figure 2 is a schematic electrical circuit illustrating a manner in which differential Heating currents can be applied to the glass drawing opening of FIG.

In Figure 1, the numeral 10 designates an elongated block which has a slot-like opening and which can be mounted in a molten bath of glass so that a thin film of glass in a thickness range of 0.0127 ram (0.0005 inch) up to 0.0762 mm (0.003 inches) through the open bottom slot end 10a of the opening via a rotating draw roller 20 vertically positioned below the slot-like opening 10a . The draw roller 20 is of conventional construction and has a perforated cylindrical outer surface 21 to which the GÜLssfilm adheres over an angle of about 90 ° of the surface by the application of a vacuum. This vacuum is applied via a stationary suction box 22 which is mounted within the perforated draw roller 20 in a conventional manner. After the drawn glass film leaves the draw roller 20, it becomes a suitable winding drum

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he

(not shown), with which / is wound into rolls, which are used for further processing.

In the simplest form of the invention, the block 10 can have the opening completely made of a glass-resistant, electrically conductive metal, such as platinum or a molybdenum alloy. A minimal 0.762 mm (0.030 in) thickness is required. A variety of electrical binding posts TI, T2, T3, T4, T5 and T6 is provided around the central portion and the side edge portions of the block 10 having the opening to be connected separately to a source of electrical energy with low voltage and high amperage. The to the The voltages applied to the respective pole terminals cause the opening in the central sections of the Blocks 10 a much larger current flow and thus a heating effect is generated, for example between the electrodes T2 and T4 and T3 and T5, than in the lateral ones End portions of the block 10a, for example by the electrodes T1 and T6.

In Figure 2, an electrical circuit is shown with which the different heating currents in a convenient manner can be applied to the various sections of the block 20 having the opening. A conventional electric Energy source, for example a power source of 440 volts and 60 Herz, supplies a transformer 15, the one

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Has secondary winding 15a, which has a middle tap point 15b, the two reduced voltages with 115 volts each and a voltage of 230 volts across the entire secondary winding 15a is available.

Furthermore, three auxiliary transformers 16a, 16b and 16c are provided. The primary winding of transformer 16b is connected to the ends of secondary winding 15a, and the output of transformer 16b has one side connected to electrodes T2 and T3 and another side connected to electrodes T4 and T5. The secondary transformer 16a is supplied by one half of the secondary winding 15a via a variable autotransformer 17a. The output of the secondary transformer 16a has one side connected to electrodes T2 and T3 and the other side connected to the terminal electrode T1 of the orifice block. Similarly, the third secondary transformer 16c to the other half of the secondary winding 15a formator via a variable Autotransportlogistic ⁴ 17c is connected, and the output winding of the secondary transformer 16c has a side which is connected to the electrodes T4 and T5, and a different Side connected to the end electrode of the port block T6.

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It is therefore apparent that the currents flowing around the end portions of the orifice block 10 are embodied by the amounts of currents flowing through the end electrodes T1 and T6. This amount of current can be conveniently varied by changing the setting of the autotransformers 17a and 17c. Such adjustment is made in order to obtain an orifice block temperature difference from the central portions which are primarily heated by current supplied from the secondary transformer 16b so that between the lateral edges of the drawn glass film extending through the orifice block 10 , and the central portions of such a glass film gives a temperature difference of about 22.2 ° C (40 ^D F).

With the aid of the method described and the corresponding device, the glass film is drawn essentially at a speed at which the volume of the glass film produced corresponds to the volume of glass emerging from the opening 10a. The process runs on this
Base continuously decreases and the relatively wide web in the range of 30.5-61.0 cm (12-25 inches), which is normally up to 90 ° / o the length of the opening 10a, remains at that width because of the precisely controlled Temperature of the lateral edges of the glass film. For a soda-lime glass, the preferred edge viscosity is about log 4.2 when the viscosity of the middle portion of the

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40-

Glasfilraes is about log 4. This corresponds to a Temperature difference of about 22.2 ° C (40 ° F). With this Temperature difference, the film edges can withstand the surface tension forces, so that a wider thinner Glass film can be produced. The edge cross-section of the film is essentially the same as the remaining glass ribbon cross-sections identical and only becomes a little thinner at the outermost edge of the tape. Thus, the edges do not have to be used before use be trimmed.

In a typical case, the desired opening temperature difference will be achieved by using an alternating current of about 2550 amperes, which has a potential of 2 volts is created. As a result, a total energy of approximately 5 KVA is applied to the orifice block 10. By the arrangement of the two variable Autotransformataren 17a and 17c can not only achieve the desired temperature difference between the lateral edges of the drawn glass film can be maintained, but also one or the other edge of the glass film are heated more strongly than the opposite end, in order to avoid unilateral heating or cooling conditions can occur to compensate. If once the different opening temperatures and thus the different Glasfilmtemperatureπ have been reached, they remain indefinitely in the desired condition, so that an effective and reliable method for glass filra- production is won

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Although the device has been shown schematically as having an integral orifice block, that is It will be understood by those skilled in the art that a block of several pieces of refractory material can also be used in the only the glass contact surfaces of the opening by a thin sheet or a thin coating of platinum or a Similar glass-resistant, electrically conductive materiel can be formed. For example, the US Pat. No. 3,473,911 adjustable opening construction described can be used advantageously. The surfaces delimiting the opening the adjustable opening construction described in this patent can be either with a coating or with an adjoining thin plate made of platinum or a similar glass-resistant, electrically conductive metal be provided. The metallic coating should have a minimum thickness in the range of 0.508 mm (0.020 inches) Provide sufficient metal to conduct the heating current · Separate electrical connections can be provided be to a controlled flow of electrical current through the central portions and the two lateral end portions of the metal to provide the glass-emitting aperture limited.

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Claims (4)

F ₃ * - »only · - ίίΐ3 Dipt. I, ύ- '■ · - ^{;:; uck} . ϊ) '■ I * -J " - - *? '! 7S C Γι - * - " V .. Ou- 0 f ^ij ' "9 . ,: - ιΐ ϊ "· -3 8OC η 2 Owens-Illinois, Inc. P.O.Box 1035 Toledo, Ohio 43666 ^{ö s Ä} December 2, 1980 Lawyer sect U-534? Claims 1 "Device for" drawing a glass filine with a thickness less than 0.0762 mn (0.003 inch), characterized by a block (10) made of a "material resistant to hot glass" means for mounting the block under a molten bath of glass " the block (10} has an elongated, slot-like opening ranging from 2.54 mm to 10.16 gutter (0.10 to 0.40 inch} wide through which a slas film (CF) can be continuously drawn and wherein the walls of the opening are electrically conductive, a plurality of electrical connections (T1-T6) connected to spaced apart portions of the walls, and means for passing an electrical current through the connections (Tt-Tß) and the opening walls flow to blank and thus to keep the lateral end portions of the aperture walls at a lower temperature than the middle portions, whereby both edge portions of the drawn glass film (oF} at a lower temperature are held al * the middle area. ORiGiNAL hMSPECTED 13003S / 0622 2. Apparatus according to claim 1, characterized in that the temperature difference dea drawn film is in a · range of 22 _f 2 ° C (40 ^q F). 3. Apparatus for "drawing a glass film less than 0.0762 m (0.003 inch) thick, characterized by a refractory structure that can be mounted under a molten glass bath and" has "two opposing surfaces that form a slot in the bottom, a glass-resistant metal coating on the surfaces defining an opening less than 10.16 bim (0.40 inch) wide through which a molten glass FHm can be continuously drawn, an electrical power source and means to electric currents separately to flow and thereby maintain the lateral end portions of the coatings at a lower temperature than the middle portions of the metal coatings from the power source through the central portions of the metal coatings and the lateral end portions. 4. Apparatus according to claim 3, characterized in that it It is provided with means for regulating the electrical currents in order to maintain a temperature difference between the edge— enriched and middle areas of the drawn file? «Im Maintain range of 22.2 ° C (4Q ° F). S. A method for regulating the temperature of a thin glass film drawn from a slit-like opening with metallic walls having a width that Not exceeding 10.16 mm (0.04 in), characterized by the following steps: Conducting separate electrical Flows through the middle sections of the opening walls and through each of the lateral end sections of the opening - walling and regulating the electrical currents to create a temperature difference between the middle sections of the To produce opening walls and the lateral end sections, the temperature of the middle sections being upper that of the lateral end portions, and drawing a film of glass through the opening of a final thickness of not more than 0.0762 mm (0.003 inches). 6 * Method according to claim S, characterized in that the Temperature difference of the opening walls is regulated so that a difference in the range of 22.2 ° C (40 ° F) between the temperature of the central portions of the drawn glass film and the side end portions of the drawn Glass film is generated. 130036/0622